CN210377665U - Prepaid gas meter - Google Patents

Abstract

The application discloses prepayment gas table includes: the gas-based meter comprises a shell, a counter and a motor valve; the meter and the motor valve are arranged inside the shell, and the motor valve is arranged on an air inlet pipe of the gas meter and used for controlling the circulation of gas in the gas meter; the control main board is arranged in the shell and comprises a flow collector, a valve controller, an NB-IoT communication device and an NFC communication device; the flow collector is connected with the meter and used for collecting the flow used by the gas meter; the valve controller is connected with the motor valve and is used for controlling the opening and closing of the motor valve; the NB-IoT communication device is used for remote communication of the gas meter; and the NFC communication device is used for near field communication of the gas meter. By adopting the scheme, the user can use the mobile device to carry out close-range payment on the gas meter, the payment mode of the user is increased, the gas meter shell does not influence NFC communication signals, and the NFC communication has the characteristics of high transmission speed, high safety and low power consumption.

Description

Prepaid gas meter

Technical Field

The application relates to the technical field of the Internet of things, in particular to a prepayment gas meter.

Background

At present, a commonly used gas meter needs a gas company meter reading person to periodically read the gas meter from a user so as to obtain the gas quantity actually used by the user, and the gas fee to be paid by the user is calculated according to the gas quantity actually used by the user. The prepayment mode provides an effective solution for the problems, the prepayment is that a user purchases gas in a gas company in advance, then the gas quantity prestored by the user is displayed on the prepayment gas meter of the user according to the gas purchased by the user in the gas company in advance, and the prepayment mode is deducted from the gas purchased in advance when the prepayment gas meter is used by the user.

With the development of the internet of things, the communication function of the prepaid gas meter is gradually realized, and the communication function is beneficial to the management of a gas company and convenient for users to pay. The communication of prepayment gas table includes remote communication and incoming communication, current prepayment gas table, remote communication generally adopts GPRS communication module to communicate, the near field communication of prepayment gas table generally adopts infrared communication, be provided with infrared sender circuit in the prepayment gas table that adopts infrared communication, including pulse oscillator, drive tube and infrared transmitting tube etc. when the gas table communication, infrared transmitting tube sends infrared signal and easily receives the influence of gas meter shell, even interrupts the communication, leads to the transmission reliability of prepayment gas table low, and the not high enough problem of security.

SUMMERY OF THE UTILITY MODEL

The application provides a prepayment gas table to among the solution prior art, when the gas table communication, infrared transmitting tube sends infrared signal and easily receives the influence of gas table shell, interrupts the communication even, leads to the transmission reliability of prepayment gas table low, and the not high enough problem of security.

The embodiment of the application provides a prepaid gas meter, include: a gas-based meter and a control main board,

the gas base meter comprises a shell, a counter and a motor valve; the meter and the motor valve are arranged inside the shell, the motor valve is arranged on an air inlet pipe of the gas meter, and the motor valve is used for controlling the circulation of gas in the gas meter;

the control mainboard is arranged in the shell and comprises a flow collector, a valve controller, an NB-IoT communication device and an NFC communication device;

the flow collector is connected with the meter and used for collecting the flow used by the gas meter;

the valve controller is connected with the motor valve and is used for controlling the opening and closing of the motor valve;

the NB-IoT communication device is used for remote communication of the gas meter, so that the gas management platform remotely collects the flow used by the gas meter and controls the opening and closing of the motor valve according to the collected flow; the NB-IoT communication device is also used for remote payment of the gas meter;

the NFC communication device is used for near field communication of the gas meter, the mobile terminal obtains the flow used by the gas meter in a close range, and the switch of the motor valve is controlled according to the collected flow; and the NFC communication device is also used for close-range payment of the gas meter.

Further, the control main board further comprises a microprocessor, the microprocessor is used for controlling the NB-IoT communication device, the NFC communication device, the flow collector and the valve controller, and the microprocessor is further used for realizing data interaction between the gas meter and the gas management platform.

Furthermore, the control mainboard further comprises a clock module, a memory module, a display module and a power module which are connected with the microprocessor;

the clock module is used for providing real-time for the gas meter;

the memory module is used for storing the using information data and the prepayment data of the gas meter;

the display module is used for displaying the time, balance and gas consumption of the gas meter and the state information of the gas meter;

and the power supply module is used for supplying power to each module of the control mainboard and managing the power consumption operation mode of the gas meter.

Optionally, a pulse sampler is arranged on the counter; the pulse sampler is connected with a flow acquisition interface in the flow acquisition device, the flow acquisition interface transmits pulse signals acquired by the pulse acquisition device to the microprocessor, and the microprocessor analyzes the pulse signals to acquire the flow of the gas meter.

Optionally, the valve controller includes a motor driver chip and a valve interface, the valve interface is connected to a motor driving the motor valve, the motor driver chip is configured to receive a level signal sent by the microprocessor, and the valve interface is configured to receive the level signal sent by the motor driver chip and output the level signal to the motor driving the motor valve, so as to switch the motor valve.

Optionally, the NB-IoT communication device includes an NB-IoT chip integrated on the control motherboard, and the NB-IoT chip is connected to a card slot disposed on the control motherboard; the NB-IoT chip is used for realizing communication between the gas meter and a card inserted into the card slot, and the NB-IoT chip is also used for realizing communication between the gas meter and the gas management platform so as to complete remote data acquisition, control and payment of the gas meter.

Optionally, the NFC communication device includes an NFC chip, the NFC chip is integrated on the front side of the control motherboard, and the NFC chip is used to implement near field communication between the mobile terminal and the gas meter, so as to implement near field data interaction between the mobile terminal and the gas meter and complete near field payment.

Optionally, an NFC radio frequency induction area is further arranged on the housing, and the mobile terminal is arranged in the NFC radio frequency induction area to perform near field communication with the gas meter.

With the adoption of the scheme, in the aspect of remote communication: the data interaction between the gas meter and the gas management platform is realized in an NB-IoT communication mode, the remote reading and the remote control of the running state of the gas meter can be realized, and meanwhile, a gas user can realize the remote payment of the gas meter through mobile phone software. In terms of near field communication: the application uses NFC to carry out near field communication, completes the close-range data interaction of the gas meter and the mobile terminal, and the user can use the mobile device with the NFC function to carry out close-range payment on the gas meter, thereby increasing the payment mode of the user. Meanwhile, when the gas meter breaks down, maintenance personnel can perform close range communication with the gas meter through the mobile terminal to complete maintenance. And, the gas table casing does not influence NFC communication signal, and NFC communication has that transmission speed is fast, the security is high, characteristics that the consumption is low.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a prepaid gas meter according to an embodiment of the present application;

fig. 2 is a back structure diagram of a control motherboard in a prepaid gas meter according to an embodiment of the present disclosure;

fig. 3 is a front structure diagram of a control motherboard in a prepaid gas meter according to an embodiment of the present application;

fig. 4 is a connection structure diagram of each module in a control motherboard in a prepaid gas meter according to an embodiment of the present application.

Wherein: 1-a gas base meter, 11-a shell, 12-a register, 13-a motor valve, 14-a control button, 15-a pulse sampler and 16-an NFC radio frequency induction area; 2-control mainboard, 21-flow collector, 211-flow interface; 22-a valve controller, 221-a motor driving chip, 222-a valve interface, 23-NB-IoT communication device, 24-NFC communication device, 25-a microprocessor, 26-a clock module, 27-a memory module, 28-a display module, 29-a power supply module, 30-a card slot and 31-a key controller.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, the present application is described in further detail with reference to the accompanying drawings and the detailed description.

The application provides a prepayment gas table to among the solution prior art, when the gas table communication, infrared transmitting tube sends infrared signal and easily receives the influence of gas table shell, interrupts the communication even, leads to the transmission reliability of prepayment gas table low, and the not high enough problem of security.

Referring to fig. 1, 2, 3 and 4, there is shown a prepaid gas meter including: gas base table 1 and control mainboard 2.

The gas-based meter 1 comprises a shell 11, a counter 12 and a motor valve 13; the counter 12 and the motor valve 13 are arranged inside the shell 11, the motor valve 13 is arranged on an air inlet pipe of the gas meter, and the motor valve 13 is used for controlling the circulation of gas in the gas meter.

Wherein, the gas base table 1 can adopt a membrane type gas base table 1, and the gas base table 1 also comprises other necessary components, such as: the shell 11 of the gas-based meter 1 is also provided with a control button 14 for controlling the switch of the prepaid gas meter. The control buttons 14 are controlled by a key controller 31 provided on the control main board 2.

In this embodiment, the housing 11 is made of plastic and metal, and the housing 11 is used to protect the internal structure of the housing 11; the counter 12 can adopt the existing counter 12, and is used for metering the gas consumption of the gas meter; the motor valve 13 is used for controlling the circulation of the gas, that is, when the gas consumption of the gas meter reaches the gas amount for purchasing in advance, the valve of the motor valve 13 is closed to prevent the circulation of the gas.

The control main board 2 is disposed in the housing 11, and the control main board 2 includes a flow collector 21, a valve controller 22, an NB-IoT communication device 23, and an NFC communication device 24.

Control mainboard 2 sets up intermediate position in the casing 11, the gas base table 1 of being convenient for is connected with control mainboard 2, and control mainboard 2's effect is the data information of gathering gas base table 1 and controls gas base table 1. In this embodiment, the data collected by the control main board 2 includes gas usage flow information of the gas meter, and whether the valve is closed is determined according to the gas usage flow information.

The flow collector 21 is connected with the meter 12, and the flow collector 21 is used for collecting the flow used by the gas meter.

In this embodiment, the flow collector 21 is connected to the counter 12 in the gas base meter 1, the specific connection mode may be interface connection, or other connection modes in the prior art may also be adopted, and the flow collector 21 obtains the gas flow used by the gas meter through the counter 12.

The valve controller 22 is connected with the motor valve 13, and the valve controller 22 is used for controlling the opening and closing of the motor valve 13;

in this embodiment, the valve controller 22 may be connected to the motor valve 13 through the valve interface 222, or other connection methods in the prior art may be adopted, and the valve controller 22 is used to control the valve opening and closing of the motor valve 13.

The NB-IoT communication device 23 is used for remote communication of the gas meter, so that the gas management platform remotely collects the flow used by the gas meter and controls the opening and closing of the motor valve 13 according to the collected flow; the NB-IoT communication device 23 is also used for remote charging of the gas meter.

The NB-IoT communication is a narrow-band Internet of things belonging to a low-power wide area network, and has the advantages of low power consumption, low cost, massive connection and the like.

In this embodiment, the NB-IoT communication device 23 is configured to establish remote communication between the gas management platform and the gas meter, so that the gas management platform remotely obtains the gas flow used by the gas meter through the NB-IoT communication device 23, and determines the valve switch of the motor valve 13 according to the obtained flow, that is, when the gas flow used by the user is less than or equal to the gas flow pre-stored by the user, the valve switch of the motor valve 13 is in an on state, and when the gas flow used by the user is greater than the gas flow pre-stored by the user, the valve switch of the motor valve 13 is in an off state, in this case, the user can remotely pay fees through the NB-IoT communication device 23. The APP or the gas management platform connected with the gas management platform can be charged for remote payment, the gas management platform converts the gas amount and sends the converted gas amount to the gas meter, and when the gas meter is used, the gas amount is deducted from the residual gas amount.

The NFC communication device 24 is used for near field communication of the gas meter, so that the mobile terminal can obtain the flow used by the gas meter in a short distance and control the opening and closing of the motor valve 13 according to the collected flow; the NFC communication device 24 is also used for close-range payment of the gas meter.

The NFC communication device 24 is used for establishing near field communication between the gas meter and the mobile terminal, and the mobile terminal obtains the tubulation data of the gas meter, for example: when the gas meter is overhauled, a maintenance master reads running state information of the gas meter on site to judge whether the gas meter is normally used, the gas meter can also be used for paying fees at a close distance by using a mobile terminal, and user experience is improved. The close range payment is realized by establishing the association between the mobile terminal and the gas meter by using the NFC device 24 and directly recharging the mobile terminal.

The embodiment of the application discloses prepayment gas table includes: the gas-based meter comprises a gas-based meter 1 and a control main board 2, wherein the gas-based meter 1 comprises a shell 11, a meter 12 and a motor valve 13; the counter 12 and the motor valve 13 are arranged inside the shell 11, and the motor valve 13 is arranged on an air inlet pipe of the gas meter and used for controlling the circulation of gas in the gas meter; the control main board 2 is disposed in the housing 11, and the control main board 2 includes a flow collector 21, a valve controller 22, an NB-IoT communication device 23, and an NFC communication device 24; the flow collector 21 is connected to the meter 12, and the flow collector 21 is used for collecting the flow used by the gas meter; the valve controller 22 is connected with the motor valve 13, and the valve controller 22 is used for controlling the opening and closing of the motor valve 13; the NB-IoT communication device 23 is used for remote communication of the gas meter, so that the gas management platform can remotely acquire the flow used by the gas meter for the gas meter and control the switching of the motor valve 13 according to the acquired flow, and the NB-IoT communication device 23 is also used for remote payment of the gas meter; the NFC communication device 24 is used for near field communication of the gas meter, the mobile terminal can acquire the flow used by the gas meter in a close range, the switch of the motor valve 13 is controlled according to the acquired flow, and the NFC communication device 24 is also used for close range payment of the gas meter.

With the adoption of the scheme, in the aspect of remote communication: the data interaction between the gas meter and the gas management platform is realized in an NB-IoT communication mode, the remote reading and the remote control of the running state of the gas meter can be realized, and meanwhile, a gas user can realize the remote payment of the gas meter through mobile phone software. In terms of near field communication: the application uses NFC to carry out near field communication, completes the close-range data interaction of the gas meter and the mobile terminal, and the user can use the mobile device with the NFC function to carry out close-range payment on the gas meter, thereby increasing the payment mode of the user. Meanwhile, when the gas meter breaks down, maintenance personnel can perform close range communication with the gas meter through the mobile terminal to complete maintenance. And, gas table casing 11 does not influence NFC communication signal, and NFC communication has that transmission speed is fast, the security is high, characteristics that the consumption is low.

Further, the control main board 2 further includes a microprocessor 25, the microprocessor 25 is configured to control the NB-IoT communication device 23, the NFC communication device 24, the flow collector 21, and the valve controller 22, and the microprocessor 25 is further configured to implement data interaction between the gas meter and the gas management platform.

The control main board 2 further includes a microprocessor 25, the microprocessor 25 is connected to the flow collector 21, the valve controller 22, the NB-IoT communication device 23 and the NFC communication device 24, the microprocessor 25 can utilize an existing control circuit to control the flow collector 21, the valve controller 22, the NB-IoT communication device 23 and the NFC communication device 24, and the microprocessor 25 and the gas management platform can realize data interaction, that is, the gas management platform can obtain data collected by the microprocessor 25, and at the same time, the gas management platform can also control the microprocessor 25, so as to control the flow collector 21, the valve controller 22, the NB-IoT communication device 23 and the NFC communication device 24.

Further, the control main board 2 further includes a clock module 26, a memory module 27, a display module 28 and a power module 29 connected to the microprocessor 25;

the clock module 26 is used for providing real-time for the gas meter.

The clock module 26 may be an RTC chip, the RTC chip is connected to the microprocessor 25, and the clock module 26 can provide accurate timing for the gas meter, such as date and time, and display the timing through the display module 28.

The memory module 27 is used for storing the gas meter use information data and the prepaid data.

The memory chip may be connected to an I2C interface of the microprocessor 25, so as to read and write the memory module 27, and the memory chip does not lose stored data after power failure.

The display module 28 is configured to display time, balance, gas consumption amount of the gas meter, and status information of the gas meter.

The display module 28 is an LCD display, and an LCD display screen is disposed at a corresponding position on the gas meter housing 11, and is configured to display time, balance (i.e., gas surplus), gas consumption, and gas meter operation state information of the gas meter.

The power module 29 is configured to supply power to each module of the control motherboard 2, and manage a power consumption operation mode of the gas meter.

The power module 29 supplies power to each module on the control motherboard 2 through a power interface by using a 6V power supply, that is, the power module 29 supplies power to the modules such as the microprocessor 25, the NB-IoT communication device 23, the NFC communication device 24, the flow collector 21, the valve controller 22, and the memory module 27, and meanwhile, the power module 29 can handle power failure so that stored information is not lost.

Optionally, a pulse sampler 15 is arranged on the counter 12; the pulse sampler 15 is connected with a flow acquisition interface 211 in the flow acquisition device 21, the flow acquisition interface 211 transmits a pulse signal acquired by the pulse acquisition device to the microprocessor 25, and the microprocessor 25 analyzes the pulse signal to acquire the flow of the gas meter.

The pulse sampler 15 can select the existing pulse sampler 15, the pulse sampler 15 is arranged on the counter 12, the gas flow pulse signal collected by the pulse sampler 15 is sent to the microprocessor 25 through the flow collection interface 211, and the microprocessor 25 analyzes the gas flow pulse signal to realize the statistics of the gas consumption of the gas meter.

Optionally, the valve controller 22 includes a motor driver chip 221 and a valve interface 222, the valve interface 222 is connected to a motor for driving the motor valve 13, the motor driver chip 221 is configured to receive a level signal sent by the microprocessor 25, and the valve interface 222 is configured to receive the level signal sent by the motor driver chip 221 and output the level signal to the motor for driving the motor valve 13, so as to switch the motor valve 13.

The valve controller 22 inputs a level signal to the motor driving chip 221 through the microprocessor 25, where the level signal is a valve on-off state determined according to the gas usage amount, and the motor driving chip 221 outputs the level signal to the motor driving the motor valve 13 through the valve interface 222, so as to switch the valve of the motor valve 13.

Optionally, the NB-IoT communication device 23 includes an NB-IoT chip integrated on the control motherboard 2, and the NB-IoT chip is connected to a card slot 30 disposed on the control motherboard 2; the NB-IoT chip is used for realizing communication between the gas meter and the card inserted into the card slot 30, and the NB-IoT chip is also used for realizing communication between the gas meter and the gas management platform so as to complete remote data acquisition, control and payment of the gas meter by the gas management platform.

The card slot 30 is a SIM card slot 30, and a card slot 30 socket is arranged at a corresponding position of the card slot 30 corresponding to the housing 11. In this embodiment, the NB-IoT chip is connected to the UART serial port of the microprocessor 25 for data interaction, the NB-IoT communication device 23 has a function of transceiving radio frequency transceiving and a control function, when the gas meter transmits data to the gas management platform, the microprocessor 25 queries the on-network information of the NB-IoT module, and if the on-network information is not transmitted, the network injection operation is performed first, and then the data is transmitted to the core network, thereby completing data transmission. In addition, when the gas meter does not transmit data, the NB-IoT module can automatically enter an idle state and a PSM state, and power consumption is reduced.

Optionally, the NFC communication device 24 includes an NFC chip, the NFC chip is integrated on the front side of the control motherboard 2, and the NFC chip is used to implement near field communication between the mobile terminal and the gas meter, so as to implement near field data interaction between the mobile terminal and the gas meter and complete near field payment.

Optionally, an NFC radio frequency sensing area 16 is further disposed on the housing 11, and the mobile terminal is disposed in the NFC radio frequency sensing area 16 to perform near field communication with the gas meter.

In this embodiment, in the passive mode, the NFC master device uses the energy of the power module 29 to provide a radio frequency field and transmits data to the NFC slave device. The NFC slave converts the radio frequency field generated by the master into electrical energy, powers the circuitry of the NFC slave, receives the data sent by the NFC master, and transmits the slave data back to the master at the same speed using load modulation techniques. The NFC master device is an NFC chip, and the NFC slave device is a non-contact card or a mobile terminal with an NFC function, so that data transmission with the gas meter can be realized when the non-contact card or the mobile terminal with the NFC function is placed in the NFC radio frequency induction area 16 of the gas meter.

The present application has been described in detail with reference to specific embodiments and illustrative examples, but the description is not intended to limit the application. Those skilled in the art will appreciate that various equivalent substitutions, modifications or improvements may be made to the presently disclosed embodiments and implementations thereof without departing from the spirit and scope of the present disclosure, and these fall within the scope of the present disclosure. The protection scope of this application is subject to the appended claims.

Claims (8)

1. A prepaid gas meter, comprising: the gas meter comprises a gas base meter (1) and a control main board (2);

the gas-based meter (1) comprises a shell (11), a register (12) and a motor valve (13); the counter (12) and the motor valve (13) are arranged inside the shell (11), the motor valve (13) is arranged on an air inlet pipe of the gas meter, and the motor valve (13) is used for controlling the circulation of gas in the gas meter;

the control main board (2) is arranged in the shell (11), and the control main board (2) comprises a flow collector (21), a valve controller (22), an NB-IoT communication device (23) and an NFC communication device (24);

the flow collector (21) is connected with the meter (12), and the flow collector (21) is used for collecting the flow used by the gas meter;

the valve controller (22) is connected with the motor valve (13), and the valve controller (22) is used for controlling the opening and closing of the motor valve (13);

the NB-IoT communication device (23) is used for remote communication of the gas meter, so that the gas management platform remotely collects the flow used by the gas meter and controls the opening and closing of the motor valve (13) according to the collected flow; the NB-IoT communication device (23) is also used for remote charging of the gas meter;

the NFC communication device (24) is used for near field communication of the gas meter, the mobile terminal obtains the flow used by the gas meter in a close range, and the switch of the motor valve (13) is controlled according to the collected flow; the NFC communication device (24) is also used for close-range payment of the gas meter.

2. The gas meter according to claim 1, wherein the control motherboard (2) further comprises a microprocessor (25), the microprocessor (25) is configured to control the NB-IoT communication device (23), the NFC communication device (24), the flow collector (21), and the valve controller (22), and the microprocessor (25) is further configured to implement data interaction between the gas meter and the gas management platform.

3. The gas meter according to claim 2, wherein the control motherboard (2) further comprises a clock module (26), a memory module (27), a display module (28) and a power module (29) connected to the microprocessor (25);

the clock module (26) is used for providing real-time for the gas meter;

the memory module (27) is used for storing gas meter use information data and prepayment data;

the display module (28) is used for displaying the time, balance and gas consumption of the gas meter and the state information of the gas meter;

and the power supply module (29) is used for supplying power to each module of the control mainboard (2) and managing the power consumption operation mode of the gas meter.

4. The gas meter according to claim 2, characterized in that the counter (12) is provided with a pulse sampler (15); the pulse sampler (15) is connected with a flow acquisition interface (211) in the flow acquisition device (21), the flow acquisition interface (211) transmits pulse signals acquired by the pulse acquisition device to the microprocessor (25), and the microprocessor (25) analyzes the pulse signals to acquire the flow of the gas meter.

5. The gas meter according to claim 2, wherein the valve controller (22) comprises a motor driving chip (221) and a valve interface (222), the valve interface (222) is connected with a motor for driving the motor valve (13), the motor driving chip (221) is used for receiving a level signal sent by the microprocessor (25), and the valve interface (222) is used for receiving the level signal sent by the motor driving chip (221) and outputting the level signal to the motor for driving the motor valve (13), so as to realize the switching of the motor valve (13).

6. The gas meter according to claim 1, wherein the NB-IoT communication device (23) comprises an NB-IoT chip integrated on the control motherboard (2), the NB-IoT chip connecting a card slot (30) provided on the control motherboard (2); the NB-IoT chip is used for realizing communication between the gas meter and a card inserted into the card slot (30), and the NB-IoT chip is also used for realizing communication between the gas meter and the gas management platform so as to complete remote data acquisition, control and payment of the gas meter.

7. The gas meter according to claim 1, wherein the NFC communication device (24) comprises an NFC chip, the NFC chip is integrated on the front face of the control mainboard (2), and the NFC chip is used for realizing near field communication between the mobile terminal and the gas meter, so that near field data interaction between the mobile terminal and the gas meter is realized, and near field payment is completed.

8. The gas meter according to claim 4, wherein an NFC radio frequency induction area (16) is further arranged on the housing (11), and a mobile terminal is arranged in the NFC radio frequency induction area (16) to perform near field communication with the gas meter.

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